Low f-Number Diffraction-Limited Pancharatnam–Berry Microlenses Enabled by Plasmonic Photopatterning of Liquid Crystal Polymers

Miao Jiang; Yubing Guo; Hao Yu; Ziyuan Zhou; Taras Turiv; Oleg D. Lavrentovich; Qi Huo Wei

doi:10.1002/adma.201808028

Low f-Number Diffraction-Limited Pancharatnam–Berry Microlenses Enabled by Plasmonic Photopatterning of Liquid Crystal Polymers

Miao Jiang, Yubing Guo, Hao Yu, Ziyuan Zhou, Taras Turiv, Oleg D. Lavrentovich, Qi Huo Wei^*

^*Corresponding author for this work

Kent State University

Research output: Contribution to journal › Article › peer-review

54 Citations (Scopus)

Abstract

Microlenses are desired by a wide range of industrial applications while it is always challenging to make them with diffraction-limited quality. Here, it is shown that high-quality microlenses based on Pancharatnam–Berry (PB) phases can be made with liquid crystal polymers by using a plasmonic photopatterning technique. Based on the generalized Snell's law for the PB phases, PB microlenses with a range of focal lengths and f-numbers are designed and fabricated and their point-spread functions and ability to image micrometer-sized particles are carefully characterized. The results show that these PB microlenses with f-number down to 2 are all diffraction-limited. The capability of arraying these PB microlenses with 100% filling factor with a step-and-flash approach is further demonstrated.

Original language	English
Article number	1808028
Journal	Advanced Materials
Volume	31
Issue number	18
DOIs	https://doi.org/10.1002/adma.201808028
Publication status	Published - 3 May 2019
Externally published	Yes

Keywords

Pancharatnam–Berry phase
liquid crystal devices
microlenses
optical design and fabrication
photoalignments

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10.1002/adma.201808028

Cite this

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title = "Low f-Number Diffraction-Limited Pancharatnam–Berry Microlenses Enabled by Plasmonic Photopatterning of Liquid Crystal Polymers",

abstract = "Microlenses are desired by a wide range of industrial applications while it is always challenging to make them with diffraction-limited quality. Here, it is shown that high-quality microlenses based on Pancharatnam–Berry (PB) phases can be made with liquid crystal polymers by using a plasmonic photopatterning technique. Based on the generalized Snell's law for the PB phases, PB microlenses with a range of focal lengths and f-numbers are designed and fabricated and their point-spread functions and ability to image micrometer-sized particles are carefully characterized. The results show that these PB microlenses with f-number down to 2 are all diffraction-limited. The capability of arraying these PB microlenses with 100% filling factor with a step-and-flash approach is further demonstrated.",

keywords = "Pancharatnam–Berry phase, liquid crystal devices, microlenses, optical design and fabrication, photoalignments",

author = "Miao Jiang and Yubing Guo and Hao Yu and Ziyuan Zhou and Taras Turiv and Lavrentovich, {Oleg D.} and Wei, {Qi Huo}",

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doi = "10.1002/adma.201808028",

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AU - Jiang, Miao

AU - Guo, Yubing

AU - Yu, Hao

AU - Zhou, Ziyuan

AU - Turiv, Taras

AU - Lavrentovich, Oleg D.

AU - Wei, Qi Huo

PY - 2019/5/3

Y1 - 2019/5/3

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AB - Microlenses are desired by a wide range of industrial applications while it is always challenging to make them with diffraction-limited quality. Here, it is shown that high-quality microlenses based on Pancharatnam–Berry (PB) phases can be made with liquid crystal polymers by using a plasmonic photopatterning technique. Based on the generalized Snell's law for the PB phases, PB microlenses with a range of focal lengths and f-numbers are designed and fabricated and their point-spread functions and ability to image micrometer-sized particles are carefully characterized. The results show that these PB microlenses with f-number down to 2 are all diffraction-limited. The capability of arraying these PB microlenses with 100% filling factor with a step-and-flash approach is further demonstrated.

KW - Pancharatnam–Berry phase

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KW - optical design and fabrication

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Low f-Number Diffraction-Limited Pancharatnam–Berry Microlenses Enabled by Plasmonic Photopatterning of Liquid Crystal Polymers

Abstract

Keywords

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